H. Hao,‡ M. Manßen,‡ and L. L. Schafer* Tantalum ureate complexes for photocatalytic hydroaminoalkylation Chem. Sci.2023, 14, 4928-4934. Link
M. Manßen,‡ S. S. Scott,‡ D. Deng, C. H. M. Zheng, and L. L. Schafer* Accessing secondary amine containing fine chemicals and polymers with an earth-abundant hydroaminoalkylation catalyst Green Chem.2023, 25, 2629-2639. Link
J. Lebon, A. Mortis, C. Maichle-Mössmer, M. Manßen,* P. Sirsch,* and R. Anwander* Schlenk’s Legacy—Methyllithium Put under Close Scrutiny Angew. Chem. Int. Ed.2023, e202214599. Link
S. de Graaf, M. Eilers, J. Buschermöhle, N. Bengen, A. Dierks, M. Schmidtmann, M. Manßen, and R. Beckhaus Niobium Bis- and Mono(Pentafulvene) Complexes: E−H Bond Cleavage and Insertion Reactions (E=C, N, O) Eur. J. Inorg.2023, e202200637. Link
M. Fischer,‡* M. Manßen,‡* M. Schmidtmann, T. Klüner,* and R. Beckhaus* Selective Propargylic C(sp³)–H Activation of Methyl-Substituted Alkynes versus [2 + 2] Cycloaddition at a Titanium Imido Template Chem. Sci.2021,12, 13711-13718. Link
M. Manßen, D. Deng, C. H. M. Zheng, R. DiPucchio, D. Chen, and L. L. Schafer* Ureate Titanium Catalysts for Hydroaminoalkylation: Using Ligand Design to Increase Reactivity and Utility ACS Catal.2021, 11, 4550–4560. Link
M. Manßen, and L. L. Schafer* Early Transition Metal-Catalyzed Hydroaminoalkylation Trends Chem. 2021, 3, 428-429. Link
M. Manßen, and L. L. Schafer Titanium Catalysis for the Synthesis of Fine Chemicals – Development and Trends Chem. Soc. Rev.2020, 49, 6947-6994. Link
L. L. Schafer,* M. Manßen, P. M. Edwards, E. K. J. Lui, S. E. Griffin, and C. R. Dunbar Chapter Seven – Titanium catalyzed synthesis of amines and N-heterocycles Adv. Organomet. Chem.2020, 74, 405-468. Link
M. Manßen, A. Dierks, S. de Graaff, M. Schmidtmann, and R. Beckhaus* Bis(η5:η1‐pentafulvene)niobium(V) Complexes: Efficient Synthons for Niobium Carbene and Imido Derivatives Angew. Chem. Int. Ed. 2018, 57, 12062-12066. Link
M. Manßen, M.-F. Meyer, M. Schmidtmann, and R. Beckhaus* Direct Access to Terminal Titanocene Hydrazides via Bis(η5:η1-pentafulvene)titanium Complexes and 1,1-Diphenylhydrazine Organometallics 2018, 37, 4515-4520. Link
M. Manßen, S. de Graaff, M.-F. Meyer, M. Schmidtmann, and R. Beckhaus* Direct Access to Titanocene Imides via Bis(η5:η1-pentafulvene)titanium Complexes and Primary Amines Organometallics2018, 37, 4506-4514. Link
M. Manßen, I. Weimer, C. Adler, M. Fischer, M. Schmidtmann, and R. Beckhaus* From Organic Azides through Titanium Triazenido Complexes to Titanium Imides Eur. J. Inorg. Chem.2018, 131-136. Link
M. Manßen, C. Kahrs, I. Töben, J.-H. Bölte, M. Schmidtmann, and R. Beckhaus* From Five to Seven: Ring Expansion of Monoazadiene Titanium Complexes by Insertion of Aldehydes, Ketones and Nitriles Chem. Eur. J. 2017, 23, 15827-15833. Link
M. Manßen, I. Töben, C. Kahrs, J.-H. Bölte, M. Schmidtmann, and R. Beckhaus* Reactions of Secondary Allylamines with Bis(η5:η1-pentafulvene)titanium Complexes: Selective Formation of Monoazabutadiene Titanium Complexes by N–H and C–H Bond Activation Organometallics 2017, 36, 2973-2981. Link
M. Manßen, N. Lauterbach, T. Woriescheck, M. Schmidtmann, and R. Beckhaus* Reactions of Secondary Amines with Bis(η5:η1-pentafulvene)titanium Complexes: Formation of Titanium Amides and Titanaaziridines Organometallics 2017, 36, 867-876. Link
M. Manßen, M. Schmidtmann, and R. Beckhaus* Crystal structure of 1,1-bis(η5-adamantylcyclopentadienyl)-3-phenyl-2-trimethylsilyl-2,3-dihydroisotitanazole, C42H55NSiTi. Z Kristallogr. NCS 2017, 232, 671-673. Link
M. Manßen, C. Adler, and R. Beckhaus* Flexible Structural Features of Pentafulvene Titanium Derivatives: Isolation and Characterization of NHC Complexes Chem. Eur. J. 2016, 22, 4405-4407. Link
M. Manßen, N. Lauterbach, J. Dörfler, M. Schmidtmann, W. Saak, S. Doye, and R. Beckhaus* Efficient Access to Titanaaziridines by C–H Activation of N‐Methylanilines at Ambient Temperature Angew. Chem. Int. Ed. 2015, 54, 4383-4387. Link
